Homology modeling servers

There are a number of free servers that create homology models (also called comparative models) for a submitted amino acid sequence, or that offer libraries of 3D models created in advance for protein sequences. The performance of homology modeling methods is evaluated in an international, biannual competition called CASP. A comparison of 10 servers is included in the 2009 description of Phyre by Kelley and Sternberg, which also offers guidance in how to use these servers effectively.

Servers
''The list below is incomplete, and may not include some of the best servers, nor does it include assessments of server performance. Please help by adding additional servers.''


 * SWISS-MODEL provides a free, fully-automated homology modeling service. Using the Automated Mode, you submit a protein sequence. When the PDB contains an empirically-determined structure with sufficient sequence identity with your query sequence, it will be used as a template. The resulting homology model will be constructed automatically.


 * ModBase: Database of Comparative Protein Structure Models allows users to calculate comparative models on demand.

Handling of gaps
There are three kinds of gaps that present challenges when creating a homology model. It is important to know how a given server handles these challenges. Behavior marked Caution seems likely to produce errors in the homology model.

* Observation is based on a single model and needs confirmation with additional models. ** Covalent peptide bonds between amino acids are not explicit in PDB files, but all commonly used software places covalent bonds based on interatomic distances. Thus, when a spatial gap is omitted in the 3D model, the two residues abutting the gap are effectively ligated.

Sequence Numbering Anomalies
It is common for the sequences of proteins in PDB structures to begin with a number other than 1 (2fsr:A, 1ucy:E, 1nsa), and to include a residue numbered zero (1avq:A, 1bxw:A). Discontinuities in sequential numbering may occur (1igt:B, 2fsr:A, 1nsa, 1iao:B). Residues in the same chain may have the same sequence number, notably in the case of "insertions" relative to a reference sequence (1igt:B, 1ucy). These inserted residues may all have the same number, but are distinguished by insertion codes, typically letters in alphabetical order. However, in rare cases, the letters may not be in alphabetical order, e.g. chain J in 1ucy. An overview of sequence numbering anomalies in the PDB, including further examples, is at Specification for Interactive Sequence Listings (in FirstGlance in Jmol).
 * Phyre2 - Caution : In early April, 2011, Phyre2 numbered the aligned portion of the template sequence incorrectly when the above kinds of sequence anomalies occur in the template PDB file. The development team has acknowledged the problem and is working on a fix.

Sequence Alignment

 * Swiss-Model fails to indicate which residues are identical, and which are similar, in its sequence alignment.
 * Phyre2 may number the aligned template sequence incorrectly -- see above.